Search results for "MESH : Phospholipids"

showing 3 items of 3 documents

Abnormalities of mitochondrial functioning can partly explain the metabolic disorders encountered in sarcopenic gastrocnemius.

2007

International audience; Aging triggers several abnormalities in muscle glycolytic fibers including increased proteolysis, reactive oxygen species (ROS) production and apoptosis. Since the mitochondria are the main site of substrate oxidation, ROS production and programmed cell death, we tried to know whether the cellular disorders encountered in sarcopenia are due to abnormal mitochondrial functioning. Gastrocnemius mitochondria were extracted from adult (6 months) and aged (21 months) male Wistar rats. Respiration parameters, opening of the permeability transition pore and ROS production, with either glutamate (amino acid metabolism) or pyruvate (glucose metabolism) as a respiration substr…

Malemuscle atrophyMESH : Cell Aging[SDV]Life Sciences [q-bio]MESH : Reactive Oxygen SpeciesMitochondrion0302 clinical medicineGlycolysisMESH: AnimalsMESH : Muscle SkeletalMESH : Fatty AcidsCellular SenescencePhospholipidsMESH: Superoxide Dismutasereactive oxygen speciesMESH : Free Radicals0303 health sciencesMESH: Muscle SkeletalMESH : RatsFatty Acidsfatty acid profile of mitochondrial lipidsMESH: Reactive Oxygen SpeciesPyruvate dehydrogenase complexMESH: Fatty Acidsmitochondria[SDV] Life Sciences [q-bio]BiochemistryMESH: Cell AgingMESH: CalciumMESH : MitochondriaCell agingPyruvate decarboxylationmedicine.medical_specialtyFree RadicalsMESH: RatsCellular respirationMESH: MitochondriaMESH : MaleCell Respirationchemistry.chemical_elementOxidative phosphorylationBiologyCalciumMESH : Rats WistarMESH : Phospholipids03 medical and health sciencesMESH: Free RadicalsInternal medicinemedicineAnimalsMESH : Superoxide DismutaseRats WistarMuscle SkeletalMESH : Calcium030304 developmental biologyMESH: Phospholipidscalciumpermeability transition poreSuperoxide Dismutaseagingaging;calcium;fatty acid profile of mitochondrial lipids;mitochondria;muscle atrophy;permeability transition pore;reactive oxygen species;Animals;Calcium;Cell Aging;Cell Respiration;Fatty Acids;Free Radicals;Male;Mitochondria;Muscle;Skeletal;Phospholipids;Rats;Wistar;Reactive Oxygen Species;Superoxide DismutaseCell BiologyMESH: Rats WistarMESH: MaleRatsEndocrinologychemistryMESH : Cell RespirationMESH : AnimalsMESH: Cell Respiration030217 neurology & neurosurgery
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Mechanisms underlying the toxicity of lactone aroma compounds towards the producing yeast cells

2003

M. A G U E D O , L. B E N E Y , Y. W A C H EA N D J. - M. B E L I N. 2003. Aims: To study the fundamental mechanisms of toxicity of the fruity aroma compound c-decalactone, that lead to alterations in cell viability during its biotechnological production by yeast cells; Yarrowia lipolytica that is able to produce high amounts of this metabolite was used here as a model. Methods and Results: Lactone concentrations above 150 mg l )1 inhibited cell growth, depolarized the living cells and increased membrane fluidity. Infrared spectroscopic measurements revealed that the introduction of the lactone into model phospholipid bilayers, decreased the phase transition temperature. Moreover, the H + -…

MESH : YarrowiaMembrane FluidityMESH : Cell MembraneIntracellular pHMESH : Membrane FluidityYarrowiaFluorescence PolarizationApplied Microbiology and BiotechnologyMESH : PhospholipidsMembrane PotentialsCell membraneMESH : Spectroscopy Fourier Transform InfraredLactonesMESH : Hydrogen-Ion ConcentrationSpectroscopy Fourier Transform InfraredmedicineMembrane fluidityMESH : Membrane PotentialsViability assay[SDV.BC] Life Sciences [q-bio]/Cellular BiologySpectroscopyPhospholipidsAdenosine TriphosphatasesMESH : Adenosine Triphosphatasesbiology[ SDV.BC ] Life Sciences [q-bio]/Cellular BiologyCell growthCell MembraneYarrowiaGeneral MedicineHydrogen-Ion Concentrationbiology.organism_classificationBioproductionYeastMESH : Lactones[INFO.INFO-BT] Computer Science [cs]/Biotechnologymedicine.anatomical_structureBiochemistryFourier Transform InfraredMESH : Fluorescence Polarization[ INFO.INFO-BT ] Computer Science [cs]/BiotechnologyBiotechnologyJournal of Applied Microbiology
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Prehibernation and hibernation effects on the D-3-hydroxybutyrate dehydrogenase of the heavy and light mitochondria from liver jerboa (Jaculus orient…

2007

The D-3-hydroxybutyrate dehydrogenase (BDH) (EC 1.1.1.30) from liver jerboa (Jaculus orientalis), a ketone body converting enzyme in mitochondria, in two populations of mitochondria (heavy and light) has been studied in different jerboa states (euthermic, prehibernating and hibernating). The results reveal: (1) important variations between states in terms of ketones bodies, glucose and lipid levels; (2) significant differences between the BDH of the two mitochondrial populations in term of protein expression and kinetic properties. These results suggest that BDH leads an important conformational change depending on the physiological state of jerboa. This BDH structural change could be the c…

HibernationMESH: RatsMESH : HibernationMESH : Hydroxybutyrate DehydrogenaseMESH : RodentiaMESH: RodentiaFluorescent Antibody TechniqueMitochondria LiverRodentiaDehydrogenaseMitochondrionBiochemistryMESH : PhospholipidsHydroxybutyrate DehydrogenaseHibernation[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyAnimalsMESH: Animals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyInner mitochondrial membraneMESH: Fluorescent Antibody TechniqueJaculus orientalis[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular BiologyPhospholipidsMESH: Phospholipidschemistry.chemical_classificationMESH: KineticsbiologyMESH : RatsGeneral MedicineMetabolismbiology.organism_classificationRatsMESH: Hydroxybutyrate DehydrogenaseKineticsMESH : Fluorescent Antibody TechniqueEnzymechemistryBiochemistryMESH : Mitochondria LiverKetone bodiesMESH: Hibernationsense organsMESH : AnimalsMESH : KineticsMESH: Mitochondria Liver
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